Core Viewpoint - STMicroelectronics (ST) is leveraging its advanced "Silicon Photonics + BiCMOS" foundry services to address the growing demand for high-speed, energy-efficient data transmission in the AI-driven chip market, particularly in cloud interconnects [2][10][12]. Group 1: Market Context and Challenges - The current data center landscape faces significant bottlenecks in connectivity, particularly for AI workloads that require high bandwidth and low latency, with up to 30% of training time spent waiting for network responses [4][6]. - The demand for optical transceivers is increasing as data centers expand, with the optical communication chipset market projected to grow from approximately $3.5 billion in 2024 to over $11 billion by 2030, at a CAGR of 17% [6][12]. Group 2: Technological Innovations - ST's PIC100 platform is the only pure silicon technology platform capable of supporting 200 Gbps single-channel transmission on 300 mm wafers, offering compact structure and superior performance [11][12]. - The transition to Silicon Photonics (SiPho) technology allows for the integration of multiple components into a single transceiver chip, enhancing efficiency and reducing system losses [10][12][15]. Group 3: Product Offerings and Collaborations - ST's BiCMOS technology, particularly the new B55 series, provides low noise performance and high data transmission rates, making it ideal for next-generation optical connections [13][14]. - The company has established a partnership with AWS to develop the PIC100 technology, aimed at improving interconnectivity for various workloads, including AI [16][17]. Group 4: Future Outlook - ST aims to create PICs that support 400 Gbps per channel, essential for modern data centers as AI applications demand faster and more efficient data flow [17][18]. - The integration of compact modulators into the PIC100 platform is a key focus, ensuring compatibility with GPU packaging sizes and enhancing overall system performance [17].